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Application to Seismic Dampers in High-Strain-Rate Superplastic Zn-AI Alloy

机译：高应变率超塑性Zn-AI合金在减震中的应用

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High strain rate superplasticity has been realised at room temperature for the first time with a ultra fine grained Zn-22wt%Al alloy. Zn-Al alloys have some advantages over low-yield-point steels in their low work-hardening rate and high ductility. In addition, Zn-Al alloys are environment-conscious because of no harmful metal like Pb. However, when Zn-Al alloys are subjected to plastic deformation, the strain is localised and local fracture can take place because of their low work-hardening property. In this study, a seismic damper was designed with a Ultra fine grained Zn-Al alloy. As a result, an ecological and high performance seismic damper, the so-called "maintenance-free seismic damper", has been successfully developed.

机译：Zn-22wt％Al超细晶粒在室温下首次实现了高应变率超塑性。 Zn-Al合金具有较低的加工硬化率和较高的延展性，因而优于低屈服点钢。此外，由于没有像Pb这样的有害金属，Zn-Al合金具有环保意识。然而，当Zn-Al合金经受塑性变形时，由于它们的低加工硬化性而使应变局部化并且可能发生局部断裂。在这项研究中，设计了一种采用超细晶粒Zn-Al合金的减震器。结果，已经成功开发了一种生态高性能的减震器，即所谓的“免维护减震器”。

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来源
《Advanced Materials and Processing》|2004年|3055-3060|共6页
会议地点 Beijing(CN)
作者
A.Kushibe; K. Makii; L.F.Chiang; T.Tanaka; M.Kohzu; K. Higashi;
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作者单位

RD Institute Takenaka Corp., 5-1, 1-chome, Ohtsuka, lnzai,Chiba (270-1395), Japan;

Mat. Res. Labs., Kobe Steel Ltd., 5-5, Takatsukadai 1-chome, Nishi-ku, Kobe (651-2271) Japan;

Dep. of Met. and Mat. Sci., Osaka Pref. University, Gakuen-cho 1-1, Sakai(599-8531) Japan;

Dep. of Met. and Mat. Sci., Osaka Pref. University, Gakuen-cho 1-1, Sakai(599-8531) Japan;

Dep. of Met. and Mat. Sci., Osaka Pref. University, Gakuen-cho 1-1, Sakai(599-8531) Japan;

Dep. of Met. and Mat. Sci., Osaka Pref. University, Gakuen-cho 1-1, Sakai(599-8531) Japan;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工程材料一般性问题;
关键词
Zn-Al alloy; superplasticity; TMCP; seismic damper; maintenance-free;

机译：锌铝合金超塑性TMCP；减震器免维护;
入库时间 2022-08-26 14:12:43

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专利

1. Successful transition from low-temperature superplasticity to high-strain-rate superplasticity with increasing temperature in an ultrafine-grained Mg-Y-Zn-Zr alloy [J] . Lee T. J., Kim W. J. Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2020,第期

机译：从低温超塑性到高菌株率超塑性的成功过渡随着超细晶粒Mg-Y-Zn-Zr合金的升高而增加
2. On applying superplastic Zn-22 wt.% Al alloy with nanocrystalline grains to general residential seismic dampers [J] . Tsutomu Tanaka, Soon Wook Chung, Li-Fu Chaing, Materials Science and Engineering. A, Structural Materials: Properties, Microstructure and Processing . 2005,第Nov期

机译：将具有纳米晶粒的超塑性Zn-22 wt％铝合金应用于一般住宅减震器
3. The processing, properties, and applications of high-strain-rate superplastic materials [J] . Mamoru Mabuchi, Kenji Higashi JOM . 1998,第6期

机译：高应变率超塑性材料的加工，性能及应用
4. Application of High-Strain-Rate Superplastic Zn-AI Alloy to Seismic Dampers and its Optimised Shape Design [C] . A.Kushibe, Y. Takigawa, K. Higashi International Conference on Superplasticity in Advanced Materials . 2007

机译：高菌株超塑性Zn-AI合金在地震阻尼器中的应用及其优化形状设计
5. Seismic performance of mass-variable tuned liquid dampers with particles fluidization in building applications. [D] . Xin, Yuxiang. 2006

机译：质量可变调谐液体阻尼器在建筑应用中具有流化粒子的抗震性能。
6. Dynamic reverse phase transformation induced high-strain-rate superplasticity in low carbon low alloy steels with commercial potential [O] . Wenquan Cao, Chongxiang Huang, Chang Wang, -1

机译：动态逆相转变在具有商业潜力的低碳低合金钢中引起高应变率超塑性
7. DEVELOPMENT OF SUPERPLASTIC Zn-Al ALLOY SEISMIC DAMPER FOR TRADITIONAL WOODEN STRUCTURE [O] . Yasuhiko INOUE, Atsumichi KUSHIBE, Takaaki KURIHARA, 2013

机译：用于传统木结构的超塑性Zn-Al合金阻尼器的研制
8. Relationship between High-Strain-Rate Superplasticity and Interface Microstructure in Aluminum Alloy Composites [R] . Koike, J. , Mitchell, T. E. , Sickafus, K. E. 1999

机译：铝合金复合材料高应变速率超塑性与界面微观结构的关系

Application to Seismic Dampers in High-Strain-Rate Superplastic Zn-AI Alloy

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